Wnt induces FZD5/8 endocytosis and degradation and the involvement of RSPO-ZNRF3/RNF43 and DVL.

IF 6.4 1区生物学 Q1 BIOLOGY

eLife Pub Date : 2025-10-10 DOI:10.7554/eLife.103996

Dong Luo, Jing Zheng, Shuning Lv, Ren Sheng, Maorong Chen, Xi He, Xinjun Zhang

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引用次数: 0

Abstract

Frizzled (FZD) proteins are the principal receptors of the Wnt signaling pathway. However, whether Wnt ligands induce FZD endocytosis and degradation remains elusive. The transmembrane E3 ubiquitin ligases ZNRF3 and RNF43 promote the endocytosis and degradation of FZD receptors to inhibit Wnt signaling, and their function is antagonized by R-spondin (RSPO) proteins. However, the dependency of RSPO-ZNRF3/RNF43-mediated FZD endocytosis and degradation on Wnt stimulation, as well as the specificity of this degradation for different FZD, remains unclear. Here, we demonstrated that Wnt specifically induces FZD5/8 endocytosis and degradation in a ZNRF3/RNF43-dependent manner. ZNRF3/RNF43 selectively targets FZD5/8 for degradation upon Wnt stimulation. RSPO1 enhances Wnt signaling by specifically stabilizing FZD5/8. Wnt promotes the interaction between FZD5 and RNF43. We further demonstrated that DVL proteins promote ligand-independent endocytosis of FZD but are dispensable for Wnt-induced FZD5/8 endocytosis and degradation. Our results reveal a novel negative regulatory mechanism of Wnt signaling at the receptor level and illuminate the mechanism by which RSPO-ZNRF3/RNF43 regulates Wnt signaling in human cells, which may provide new insights into regenerative medicine and cancer therapy.

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Wnt诱导FZD5/8胞吞和降解，并参与RSPO-ZNRF3/RNF43和DVL。

卷曲蛋白（FZD）是Wnt信号通路的主要受体。然而，Wnt配体是否诱导FZD内吞和降解仍然是一个谜。跨膜E3泛素连接酶ZNRF3和RNF43促进FZD受体的内吞和降解，抑制Wnt信号，其功能被R-spondin （RSPO）蛋白拮抗。然而，RSPO-ZNRF3/ rnf43介导的FZD内吞和降解对Wnt刺激的依赖性以及这种降解对不同FZD的特异性尚不清楚。在这里，我们证明了Wnt以ZNRF3/ rnf43依赖的方式特异性诱导FZD5/8的内吞和降解。在Wnt刺激下，ZNRF3/RNF43选择性靶向FZD5/8降解。RSPO1通过特异性稳定FZD5/8增强Wnt信号。Wnt促进FZD5和RNF43之间的相互作用。我们进一步证明，DVL蛋白促进FZD的配体非依赖性内吞作用，但对于wnt诱导的FZD5/8内吞和降解是必不可少的。我们的研究结果揭示了Wnt信号在受体水平上的新的负调控机制，并阐明了RSPO-ZNRF3/RNF43调控人类细胞中Wnt信号的机制，这可能为再生医学和癌症治疗提供新的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

eLife BIOLOGY-

CiteScore

12.90

自引率

3.90%

发文量

3122

审稿时长

17 weeks

期刊介绍： eLife is a distinguished, not-for-profit, peer-reviewed open access scientific journal that specializes in the fields of biomedical and life sciences. eLife is known for its selective publication process, which includes a variety of article types such as: Research Articles: Detailed reports of original research findings. Short Reports: Concise presentations of significant findings that do not warrant a full-length research article. Tools and Resources: Descriptions of new tools, technologies, or resources that facilitate scientific research. Research Advances: Brief reports on significant scientific advancements that have immediate implications for the field. Scientific Correspondence: Short communications that comment on or provide additional information related to published articles. Review Articles: Comprehensive overviews of a specific topic or field within the life sciences.